Altered natural killer cell subset homeostasis and defective chemotactic responses in paroxysmal nocturnal hemoglobinuria

Blood ◽  
2013 ◽  
Vol 122 (11) ◽  
pp. 1887-1890 ◽  
Author(s):  
Yasser M. El-Sherbiny ◽  
Richard J. Kelly ◽  
Anita Hill ◽  
Gina M. Doody ◽  
Peter Hillmen ◽  
...  
Keyword(s):  
Natural Killer Cell ◽  
Nk Cells ◽  
Natural Killer ◽  
Paroxysmal Nocturnal Hemoglobinuria ◽  
Nk Cell ◽  
Killer Cell ◽  
Cell Subset ◽  
Natural Killer Cell Subset ◽  
Key Points

Key Points Paroxysmal nocturnal hemoglobinuria identifies a role for GPI-linked proteins in the homeostasis of human NK cell subsets. GPI-deficient NK cells exhibit impaired chemotactic responses.

scholarly journals Key Role of the CD56lowCD16low Natural Killer Cell Subset in the Recognition and Killing of Multiple Myeloma Cells

Cancers ◽  
2018 ◽  
Vol 10 (12) ◽  
pp. 473 ◽  
Author(s):  
Elisabetta Vulpis ◽  
Helena Stabile ◽  
Alessandra Soriani ◽  
Cinzia Fionda ◽  
Maria Petrucci ◽  
...  
Keyword(s):  
Multiple Myeloma ◽  
Nk Cells ◽  
Natural Killer ◽  
Nk Cell ◽  
Killer Cell ◽  
Cell Subset ◽  
Cytolytic Activity ◽  
Hematopoietic Stem ◽  
Natural Killer Cell Subset

Natural Killer (NK) cells play a pivotal role in the immunosurveillance of Multiple Myeloma (MM), but it is still undefined whether the NK cell functional properties underlying their protective activity against MM are confined to distinct NK cell populations. Interestingly, herein we report that the CD56lowCD16low NK cell subset displayed higher cytolytic activity compared to the other NK cell subsets (i.e., CD56highCD16+/−, CD56lowCD16high) against MM cells and its activity was impaired in MM patients. Decreased DNAM-1 expression levels were observed on the CD56lowCD16low NK cells during MM progression. Evaluating NK cell subset frequency after autologous hematopoietic stem cell transplantation, we found that CD56lowCD16low NK cells recovered earlier after transplantation. Overall, our data denote a key role of CD56lowCD16low subpopulation in the killing of MM cells and suggest that the reconstitution of CD56lowCD16low subpopulation after HSCT could be a useful approach of adoptive immunotherapy in the treatment of relapsed/refractory MM patients.

scholarly journals TOX2 regulates human natural killer cell development by controlling T-BET expression

Blood ◽  
2014 ◽  
Vol 124 (26) ◽  
pp. 3905-3913 ◽  
Author(s):  
Queenie P. Vong ◽  
Wai-Hang Leung ◽  
Jim Houston ◽  
Ying Li ◽  
Barbara Rooney ◽  
...  
Keyword(s):  
Natural Killer Cell ◽  
Nk Cells ◽  
Natural Killer ◽  
Nk Cell ◽  
Killer Cell ◽  
Cell Development ◽  
Human Natural Killer Cell ◽  
Key Points

Key Points Normal maturation of human NK cells requires the expression of TOX2. TOX2 directly regulates the expression of T-BET during human NK cell development.

scholarly journals A research-driven approach to the identification of novel natural killer cell deficiencies affecting cytotoxic function

Blood ◽  
2020 ◽  
Vol 135 (9) ◽  
pp. 629-637
Author(s):  
Michael T. Lam ◽  
Emily M. Mace ◽  
Jordan S. Orange
Keyword(s):  
Natural Killer Cell ◽  
Nk Cells ◽  
Natural Killer ◽  
Nk Cell ◽  
Killer Cell ◽  
Cell Development ◽  
Impact Testing ◽  
Primary Immune Deficiency ◽  
Cell Cytotoxicity ◽  
Nk Cell Cytotoxicity

Abstract Natural killer cell deficiencies (NKDs) are an emerging phenotypic subtype of primary immune deficiency. NK cells provide a defense against virally infected cells using a variety of cytotoxic mechanisms, and patients who have defective NK cell development or function can present with atypical, recurrent, or severe herpesviral infections. The current pipeline for investigating NKDs involves the acquisition and clinical assessment of patients with a suspected NKD followed by subsequent in silico, in vitro, and in vivo laboratory research. Evaluation involves initially quantifying NK cells and measuring NK cell cytotoxicity and expression of certain NK cell receptors involved in NK cell development and function. Subsequent studies using genomic methods to identify the potential causative variant are conducted along with variant impact testing to make genotype-phenotype connections. Identification of novel genes contributing to the NKD phenotype can also be facilitated by applying the expanding knowledge of NK cell biology. In this review, we discuss how NKDs that affect NK cell cytotoxicity can be approached in the clinic and laboratory for the discovery of novel gene variants.

Adrenergic β1- and β1+2-receptor blockade suppress the natural killer cell response to head-up tilt in humans

1997 ◽  
Vol 83 (5) ◽  
pp. 1492-1498 ◽  
Author(s):  
M. Klokker ◽  
N. H. Secher ◽  
P. Madsen ◽  
M. Pedersen ◽  
B. K. Pedersen
Keyword(s):  
Natural Killer Cell ◽  
Nk Cells ◽  
Natural Killer ◽  
Cell Response ◽  
Nk Cell ◽  
Killer Cell ◽  
Saline Control ◽  
Receptor Blockade ◽  
Natural Killer Cell Response ◽  
Head Up Tilt

Klokker, M., N. H. Secher, P. Madsen, M. Pedersen, and B. K. Pedersen. Adrenergic β1- and β1+2-receptor blockade suppress the natural killer cell response to head-up tilt in humans. J. Appl. Physiol. 83(5): 1492–1498, 1997.—To evaluate stress-induced changes in blood leukocytes with emphasis on the natural killer (NK) cells, eight male volunteers were followed during three trials of head-up tilt with adrenergic β1- (metoprolol) and β1+2- (propranolol) blockade and with saline (control) infusions. The β1- and β1+2-receptor blockade did not affect the appearance of presyncopal symptoms, but the head-up tilt induced a transient lymphocytosis that was abolished by β1+2-receptor blockade but not by β1-receptor blockade. Head-up tilt also resulted in delayed neutrophilia, which was insensitive to β-receptor blockade. Lymphocyte subset analysis revealed that the head-up tilt resulted in a twofold increase in the percentage and absolute number of CD3−/CD16+and CD3−/CD56+NK cells in peripheral blood and that this increase was partially blocked by metoprolol and abolished by propranolol. The NK cell activity on a per NK cell basis did not change during head-up tilt, indicating that the cytotoxic capability of NK cells recruited to circulation is unchanged. The data suggest that the head-up tilt-induced lymphocytosis was due mainly to CD16+and CD56+NK cells and that their recruitment to the blood was inhibited by β1- and especially β1+2-receptor blockade. Thus stress-induced recruitment of lymphocytes, and of NK cells in particular, is mediated by epinephrine through activation of β-receptors on the lymphocytes.

scholarly journals Preferential apoptosis of CD56dim natural killer cell subset in patients with cancer

2003 ◽  
Vol 33 (1) ◽  
pp. 119-124 ◽  
Author(s):  
Thomas Bauernhofer ◽  
Iris Kuss ◽  
Brent Henderson ◽  
Andrew S. Baum ◽  
Theresa L. Whiteside
Keyword(s):  
Natural Killer Cell ◽  
Natural Killer ◽  
Killer Cell ◽  
Cell Subset ◽  
Patients With Cancer ◽  
Natural Killer Cell Subset ◽  
Cd56dim Natural Killer Cell

scholarly journals Human CD56dimCD16dim Cells As an Individualized Natural Killer Cell Subset

2017 ◽  
Vol 8 ◽  
Author(s):  
Mathieu Amand ◽  
Gilles Iserentant ◽  
Aurélie Poli ◽  
Marwan Sleiman ◽  
Virginie Fievez ◽  
...  
Keyword(s):  
Natural Killer Cell ◽  
Natural Killer ◽  
Killer Cell ◽  
Cell Subset ◽  
Natural Killer Cell Subset

scholarly journals Natural killer cells suppress human erythroid stem cell proliferation in vitro

Blood ◽  
1984 ◽  
Vol 63 (2) ◽  
pp. 260-269 ◽  
Author(s):  
KF Mangan ◽  
ME Hartnett ◽  
SA Matis ◽  
A Winkelstein ◽  
T Abo
Keyword(s):  
Stem Cell ◽  
Natural Killer Cell ◽  
Nk Cells ◽  
Natural Killer ◽  
Nk Cell ◽  
Killer Cell ◽  
Human Natural Killer Cell ◽  
Percoll Density Gradient Centrifugation

Abstract To determine the role of natural killer (NK) cells in the regulation of human erythropoiesis, we studied the effects of NK-enriched cell populations on the in vitro proliferation of erythroid stem cells at three different levels of maturation (day 14 blood BFU-E, day 5–6 marrow CFU-E, and day 10–12 marrow BFU-E). NK cells were enriched from blood by Percoll density gradient centrifugation and by fluorescence- activated cell sorting (FACS), using the human natural killer cell monoclonal antibody, HNK-1. The isolated enriched fractions were cocultured with autologous nonadherent marrow cells or blood null cells and erythropoietin in a methylcellulose erythroid culture system. Cells from low-density Percoll fractions (NK-enriched cells) were predominantly large granular lymphocytes with cytotoxic activity against K562 targets 6–10-fold greater than cells obtained from high- density Percoll fractions (NK-depleted cells). In coculture with marrow nonadherent cells (NA) at NK:NA ratios of 2:1, NK-enriched cells suppressed day 5–6 CFU-E to 62% (p less than 0.025) of controls, whereas NK-depleted cells slightly augmented CFU-E to 130% of controls (p greater than 0.05). In contrast, no suppression of day 10–12 marrow BFU-E was observed employing NK-enriched cells. The NK CFU-E suppressor effects were abolished by complement-mediated lysis of NK-enriched cells with the natural killer cell antibody, HNK-1. Highly purified HNK- 1+ cells separated by FACS suppressed marrow CFU-E to 34% (p less than 0.025) and marrow BFU-E to 41% (p less than 0.025) of controls. HNK- cells had no significant effect on either BFU-E or CFU-E growth. NK- enriched cells were poor stimulators of day 14 blood BFU-E in comparison to equal numbers of NK-depleted cells or T cells isolated by E-rosetting (p less than 0.01). Interferon boosting of NK-enriched cells abolished their suboptimal burst-promoting effects and augmented their CFU-E suppressor effects. These studies provide evidence for a potential regulatory role of NK cells in erythropoiesis. The NK suppressor effect is maximal at the level of the mature erythroid stem cell CFU-E. These findings may explain some hypoproliferative anemias that develop in certain NK cell-activated states.

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